How do piscivorous fish assemblage, species richness, and density impact indirectly invertebrate prey consumption by invertivores in coral reef environment?

Dataset extent

While numerous studies have noted the potential for cascading impacts resulting from piscivorous fish depletion from coral reef food webs (Jackson 2001, Jackson et al. 2001, Bascompte et al. 2005), few have been able to detect the hypothesized cascading impacts of piscivore depletion (Jennings and Polunin 1997). I hypothesize that this lack of evidence can be the cumulative result of the emergent properties of diverse predator and prey assemblages in these habitats, which has been shown to weaken trophic cascades in some occasions (Finke and Denno 2004, Duffy et al. 2005) or that inappropriate scale (Levin 1992) or metrics used in previous studies may have biased the results. Combining traditional community ecology metrics and experimental measurements of foraging efficiency, I evaluate the direct impacts piscivore richness and density on the composition and relative abundances on midlevel consumers and indirectly on the survival of their potential invertebrate prey. This approach conducted on a previously untested fore-back reef scale, as well as combining traditional community measures to a process, may be more suitable for studying top-down impacts in diverse communities with numerous trophic linkages, such as coral reefs.

Data and Resources

Additional Info

Field Value
Author Dr John Valentine or Riikka Puntila
Maintainer data@disl.org
Last Updated July 23, 2022, 03:04 (UTC)
Created July 23, 2022, 03:04 (UTC)
Access_Constraints Permission to access these data must be given by Dr. John Valentine or Riikka Puntila of the Dauphin Island Sea Lab.
ISO 19115 Topic Categories biota, 0012, environment, 007, oceans, 014
Place Keywords Florida Keys National Marine Sanctuary, FKNMS, Florida, Key Largo, Dry Rocks Reef, Grecian Rocks Reef, White Banks, Little Grecian Reef
Theme Keywords piscivorous fish assemblage, species richness, density, invertebrate, prey consumption, invertivore, coral reef, predation, ecosystem structure, trophic cascade, tethered invertebrates, tethering
Use_Constraints Acknowledgment of the DISL: Valentine Lab, The National Oceanographic and Atmospheric Administration (NOAA), and the National Undersea Research Center (NURC) would be appreciated in products developed from these data, and such acknowledgment as is standard for citation and legal practices for data source is expected by users of these data. Users should be aware that comparison with other data sets for the same area from other time periods may be inaccurate due to inconsistencies resulting from changes in mapping conventions, data collection, and computer processes over time. The distributor shall not be liable for improper or incorrect use of these data, based on the description of appropriate/inappropriate uses described in the metadata document. These data are not legal documents and are not to be used as such.
dc.coverage.placeName Florida Keys National Marine Sanctuary FKNMS Florida Key Largo Dry Rocks Reef Grecian Rocks Reef White Banks Little Grecian Reef
dc.coverage.t.max 20091007T
dc.coverage.t.min 20080826T
dc.coverage.x.max 80.29694
dc.coverage.x.min 80.34277
dc.coverage.y.max 25.12444
dc.coverage.y.min 25.10666
dc.creator Dauphin Island Sea Lab: Valentine Lab
dc.date Unpublished material
dc.description While numerous studies have noted the potential for cascading impacts resulting from piscivorous fish depletion from coral reef food webs (Jackson 2001, Jackson et al. 2001, Bascompte et al. 2005), few have been able to detect the hypothesized cascading impacts of piscivore depletion (Jennings and Polunin 1997). I hypothesize that this lack of evidence can be the cumulative result of the emergent properties of diverse predator and prey assemblages in these habitats, which has been shown to weaken trophic cascades in some occasions (Finke and Denno 2004, Duffy et al. 2005) or that inappropriate scale (Levin 1992) or metrics used in previous studies may have biased the results. Combining traditional community ecology metrics and experimental measurements of foraging efficiency, I evaluate the direct impacts piscivore richness and density on the composition and relative abundances on midlevel consumers and indirectly on the survival of their potential invertebrate prey. This approach conducted on a previously untested fore-back reef scale, as well as combining traditional community measures to a process, may be more suitable for studying top-down impacts in diverse communities with numerous trophic linkages, such as coral reefs.
dc.language en
dc.source Florida Keys invertivore prey consumption data
dc.subject piscivorous fish assemblage species richness density invertebrate prey consumption invertivore coral reef predation ecosystem structure trophic cascade tethered invertebrates tethering
dc.title How do piscivorous fish assemblage, species richness, and density impact indirectly invertebrate prey consumption by invertivores in coral reef environment?
dc.type database
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